/*
  ==============================================================================

   This file is part of the JUCE framework.
   Copyright (c) Raw Material Software Limited

   JUCE is an open source framework subject to commercial or open source
   licensing.

   By downloading, installing, or using the JUCE framework, or combining the
   JUCE framework with any other source code, object code, content or any other
   copyrightable work, you agree to the terms of the JUCE End User Licence
   Agreement, and all incorporated terms including the JUCE Privacy Policy and
   the JUCE Website Terms of Service, as applicable, which will bind you. If you
   do not agree to the terms of these agreements, we will not license the JUCE
   framework to you, and you must discontinue the installation or download
   process and cease use of the JUCE framework.

   JUCE End User Licence Agreement: https://juce.com/legal/juce-8-licence/
   JUCE Privacy Policy: https://juce.com/juce-privacy-policy
   JUCE Website Terms of Service: https://juce.com/juce-website-terms-of-service/

   Or:

   You may also use this code under the terms of the AGPLv3:
   https://www.gnu.org/licenses/agpl-3.0.en.html

   THE JUCE FRAMEWORK IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL
   WARRANTIES, WHETHER EXPRESSED OR IMPLIED, INCLUDING WARRANTY OF
   MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED.

  ==============================================================================
*/

#include <juce_core/system/juce_TargetPlatform.h>

#if JucePlugin_Build_Unity

#include <juce_audio_plugin_client/detail/juce_PluginUtilities.h>
#include <juce_audio_processors/format_types/juce_LegacyAudioParameter.cpp>

#if JUCE_WINDOWS
 #include <juce_audio_plugin_client/detail/juce_IncludeSystemHeaders.h>
#endif

#include <juce_audio_plugin_client/Unity/juce_UnityPluginInterface.h>

#include <juce_events/native/juce_RunningInUnity.h>

//==============================================================================
namespace juce
{

typedef ComponentPeer* (*createUnityPeerFunctionType) (Component&);
extern createUnityPeerFunctionType juce_createUnityPeerFn;

//==============================================================================
class UnityPeer final : public ComponentPeer,
                        public AsyncUpdater
{
public:
    UnityPeer (Component& ed)
        : ComponentPeer (ed, 0),
          mouseWatcher (*this)
    {
        getEditor().setResizable (false, false);
    }

    //==============================================================================
    Rectangle<int> getBounds() const override                              { return bounds; }
    Point<float> localToGlobal (Point<float> relativePosition) override    { return relativePosition + getBounds().getPosition().toFloat(); }
    Point<float> globalToLocal (Point<float> screenPosition) override      { return screenPosition - getBounds().getPosition().toFloat(); }

    using ComponentPeer::localToGlobal;
    using ComponentPeer::globalToLocal;

    StringArray getAvailableRenderingEngines() override                    { return StringArray ("Software Renderer"); }

    void setBounds (const Rectangle<int>& newBounds, bool) override
    {
        bounds = newBounds;
        mouseWatcher.setBoundsToWatch (bounds);
    }

    bool contains (Point<int> localPos, bool) const override
    {
        if (isPositiveAndBelow (localPos.getX(), getBounds().getWidth())
               && isPositiveAndBelow (localPos.getY(), getBounds().getHeight()))
            return true;

        return false;
    }

    void handleAsyncUpdate() override
    {
        fillPixels();
    }

    //==============================================================================
    AudioProcessorEditor& getEditor()    { return *dynamic_cast<AudioProcessorEditor*> (&getComponent()); }

    void setPixelDataHandle (uint8* handle, int width, int height)
    {
        pixelData = handle;

        textureWidth = width;
        textureHeight = height;

        renderImage = Image (new UnityBitmapImage (pixelData, width, height));
    }

    // N.B. This is NOT an efficient way to do this and you shouldn't use this method in your own code.
    // It works for our purposes here but a much more efficient way would be to use a GL texture.
    void fillPixels()
    {
        if (pixelData == nullptr)
            return;

        LowLevelGraphicsSoftwareRenderer renderer (renderImage);
        renderer.addTransform (AffineTransform::verticalFlip ((float) getComponent().getHeight()));

        handlePaint (renderer);

        for (int i = 0; i < textureWidth * textureHeight * 4; i += 4)
        {
            auto r = pixelData[i + 2];
            auto g = pixelData[i + 1];
            auto b = pixelData[i + 0];

            pixelData[i + 0] = r;
            pixelData[i + 1] = g;
            pixelData[i + 2] = b;
        }
    }

    void forwardMouseEvent (Point<float> position, ModifierKeys mods)
    {
        ModifierKeys::currentModifiers = mods;

        handleMouseEvent (juce::MouseInputSource::mouse, position, mods, juce::MouseInputSource::defaultPressure,
                          juce::MouseInputSource::defaultOrientation, juce::Time::currentTimeMillis());
    }

    void forwardKeyPress (int code, String name, ModifierKeys mods)
    {
        ModifierKeys::currentModifiers = mods;

        handleKeyPress (getKeyPress (code, name));
    }

private:
    //==============================================================================
    struct UnityBitmapImage final : public ImagePixelData
    {
        UnityBitmapImage (uint8* data, int w, int h)
            : ImagePixelData (Image::PixelFormat::ARGB, w, h),
              imageData (data),
              lineStride (width * pixelStride)
        {
        }

        std::unique_ptr<ImageType> createType() const override
        {
            return std::make_unique<SoftwareImageType>();
        }

        std::unique_ptr<LowLevelGraphicsContext> createLowLevelContext() override
        {
            return std::make_unique<LowLevelGraphicsSoftwareRenderer> (Image (this));
        }

        void initialiseBitmapData (Image::BitmapData& bitmap, int x, int y, [[maybe_unused]] Image::BitmapData::ReadWriteMode mode) override
        {
            const auto offset = (size_t) x * (size_t) pixelStride + (size_t) y * (size_t) lineStride;
            bitmap.data = imageData + offset;
            bitmap.size = (size_t) (lineStride * height) - offset;
            bitmap.pixelFormat = pixelFormat;
            bitmap.lineStride = lineStride;
            bitmap.pixelStride = pixelStride;
        }

        ImagePixelData::Ptr clone() override
        {
            auto im = new UnityBitmapImage (imageData, width, height);

            for (int i = 0; i < height; ++i)
                memcpy (im->imageData + i * lineStride, imageData + i * lineStride, (size_t) lineStride);

            return im;
        }

        uint8* imageData;
        int pixelStride = 4, lineStride;

        JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (UnityBitmapImage)
    };

    //==============================================================================
    struct MouseWatcher final : public Timer
    {
        MouseWatcher (ComponentPeer& o)    : owner (o)    {}

        void timerCallback() override
        {
            auto pos = Desktop::getMousePosition();

            if (boundsToWatch.contains (pos) && pos != lastMousePos)
            {
                auto ms = Desktop::getInstance().getMainMouseSource();

                if (! ms.getCurrentModifiers().isLeftButtonDown())
                    owner.handleMouseEvent (juce::MouseInputSource::mouse, owner.globalToLocal (pos.toFloat()), {},
                                            juce::MouseInputSource::defaultPressure, juce::MouseInputSource::defaultOrientation, juce::Time::currentTimeMillis());

                lastMousePos = pos;
            }

        }

        void setBoundsToWatch (Rectangle<int> b)
        {
            if (boundsToWatch != b)
                boundsToWatch = b;

            startTimer (250);
        }

        ComponentPeer& owner;
        Rectangle<int> boundsToWatch;
        Point<int> lastMousePos;
    };

    //==============================================================================
    KeyPress getKeyPress (int keyCode, String name)
    {
        if (keyCode >= 32 && keyCode <= 64)
            return { keyCode, ModifierKeys::currentModifiers, juce::juce_wchar (keyCode) };

        if (keyCode >= 91 && keyCode <= 122)
            return { keyCode, ModifierKeys::currentModifiers, name[0] };

        if (keyCode >= 256 && keyCode <= 265)
            return { juce::KeyPress::numberPad0 + (keyCode - 256), ModifierKeys::currentModifiers, juce::String (keyCode - 256).getCharPointer()[0] };

        if (keyCode == 8)      return { juce::KeyPress::backspaceKey,          ModifierKeys::currentModifiers, {} };
        if (keyCode == 127)    return { juce::KeyPress::deleteKey,             ModifierKeys::currentModifiers, {} };
        if (keyCode == 9)      return { juce::KeyPress::tabKey,                ModifierKeys::currentModifiers, {} };
        if (keyCode == 13)     return { juce::KeyPress::returnKey,             ModifierKeys::currentModifiers, {} };
        if (keyCode == 27)     return { juce::KeyPress::escapeKey,             ModifierKeys::currentModifiers, {} };
        if (keyCode == 32)     return { juce::KeyPress::spaceKey,              ModifierKeys::currentModifiers, {} };
        if (keyCode == 266)    return { juce::KeyPress::numberPadDecimalPoint, ModifierKeys::currentModifiers, {} };
        if (keyCode == 267)    return { juce::KeyPress::numberPadDivide,       ModifierKeys::currentModifiers, {} };
        if (keyCode == 268)    return { juce::KeyPress::numberPadMultiply,     ModifierKeys::currentModifiers, {} };
        if (keyCode == 269)    return { juce::KeyPress::numberPadSubtract,     ModifierKeys::currentModifiers, {} };
        if (keyCode == 270)    return { juce::KeyPress::numberPadAdd,          ModifierKeys::currentModifiers, {} };
        if (keyCode == 272)    return { juce::KeyPress::numberPadEquals,       ModifierKeys::currentModifiers, {} };
        if (keyCode == 273)    return { juce::KeyPress::upKey,                 ModifierKeys::currentModifiers, {} };
        if (keyCode == 274)    return { juce::KeyPress::downKey,               ModifierKeys::currentModifiers, {} };
        if (keyCode == 275)    return { juce::KeyPress::rightKey,              ModifierKeys::currentModifiers, {} };
        if (keyCode == 276)    return { juce::KeyPress::leftKey,               ModifierKeys::currentModifiers, {} };

        return {};
    }

    //==============================================================================
    Rectangle<int> bounds;
    MouseWatcher mouseWatcher;

    uint8* pixelData = nullptr;
    int textureWidth, textureHeight;
    Image renderImage;

    //==============================================================================
    void setMinimised (bool) override                                 {}
    bool isMinimised() const override                                 { return false; }
    void setFullScreen (bool) override                                {}
    bool isFullScreen() const override                                { return false; }
    bool setAlwaysOnTop (bool) override                               { return false; }
    void toFront (bool) override                                      {}
    void toBehind (ComponentPeer*) override                           {}
    bool isFocused() const override                                   { return true; }
    void grabFocus() override                                         {}
    void* getNativeHandle() const override                            { return nullptr; }
    OptionalBorderSize getFrameSizeIfPresent() const override         { return {}; }
    BorderSize<int> getFrameSize() const override                     { return {}; }
    void setVisible (bool) override                                   {}
    void setTitle (const String&) override                            {}
    void setIcon (const Image&) override                              {}
    void textInputRequired (Point<int>, TextInputTarget&) override    {}
    void setAlpha (float) override                                    {}
    void performAnyPendingRepaintsNow() override                      {}
    void repaint (const Rectangle<int>&) override                     {}

    //==============================================================================
    JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (UnityPeer)
};

static ComponentPeer* createUnityPeer (Component& c)    { return new UnityPeer (c); }

//==============================================================================
class AudioProcessorUnityWrapper
{
public:
    AudioProcessorUnityWrapper (bool isTemporary)
    {
        detail::RunningInUnity::state = true;
        pluginInstance = createPluginFilterOfType (AudioProcessor::wrapperType_Unity);

        if (! isTemporary && pluginInstance->hasEditor())
        {
            pluginInstanceEditor.reset (pluginInstance->createEditorIfNeeded());
            pluginInstanceEditor->setVisible (true);
            detail::PluginUtilities::addToDesktop (*pluginInstanceEditor, nullptr);
        }

        juceParameters.update (*pluginInstance, false);
    }

    ~AudioProcessorUnityWrapper()
    {
        if (pluginInstanceEditor != nullptr)
        {
            pluginInstanceEditor->removeFromDesktop();

            PopupMenu::dismissAllActiveMenus();
            pluginInstanceEditor->processor.editorBeingDeleted (pluginInstanceEditor.get());
            pluginInstanceEditor = nullptr;
        }
    }

    void create (UnityAudioEffectState* state)
    {
        // only supported in Unity plugin API > 1.0
        if (state->structSize >= sizeof (UnityAudioEffectState))
            samplesPerBlock = static_cast<int> (state->dspBufferSize);

       #ifdef JucePlugin_PreferredChannelConfigurations
        short configs[][2] = { JucePlugin_PreferredChannelConfigurations };
        [[maybe_unused]] const int numConfigs = sizeof (configs) / sizeof (short[2]);

        jassert (numConfigs > 0 && (configs[0][0] > 0 || configs[0][1] > 0));

        pluginInstance->setPlayConfigDetails (configs[0][0], configs[0][1], state->sampleRate, samplesPerBlock);
       #else
        pluginInstance->setRateAndBufferSizeDetails (state->sampleRate, samplesPerBlock);
       #endif

        pluginInstance->prepareToPlay (state->sampleRate, samplesPerBlock);

        scratchBuffer.setSize (jmax (pluginInstance->getTotalNumInputChannels(), pluginInstance->getTotalNumOutputChannels()), samplesPerBlock);
    }

    void release()
    {
        pluginInstance->releaseResources();
    }

    void reset()
    {
        pluginInstance->reset();
    }

    void process (float* inBuffer, float* outBuffer, int bufferSize, int numInChannels, int numOutChannels, bool isBypassed)
    {
        // If the plugin has a bypass parameter, set it to the current bypass state
        if (auto* param = pluginInstance->getBypassParameter())
            if (isBypassed != (param->getValue() >= 0.5f))
                param->setValueNotifyingHost (isBypassed ? 1.0f : 0.0f);

        for (int pos = 0; pos < bufferSize;)
        {
            auto max = jmin (bufferSize - pos, samplesPerBlock);
            processBuffers (inBuffer + (pos * numInChannels), outBuffer + (pos * numOutChannels), max, numInChannels, numOutChannels, isBypassed);

            pos += max;
        }
    }

    void declareParameters (UnityAudioEffectDefinition& definition)
    {
        static std::unique_ptr<UnityAudioParameterDefinition> parametersPtr;
        static int numParams = 0;

        if (parametersPtr == nullptr)
        {
            numParams = (int) juceParameters.size();

            parametersPtr.reset (static_cast<UnityAudioParameterDefinition*> (std::calloc (static_cast<size_t> (numParams),
                                                                              sizeof (UnityAudioParameterDefinition))));

            parameterDescriptions.clear();

            for (int i = 0; i < numParams; ++i)
            {
                auto* parameter = juceParameters.getParamForIndex (i);
                auto& paramDef = parametersPtr.get()[i];

                const auto nameLength = (size_t) numElementsInArray (paramDef.name);
                const auto unitLength = (size_t) numElementsInArray (paramDef.unit);

                parameter->getName ((int) nameLength - 1).copyToUTF8 (paramDef.name, nameLength);

                if (parameter->getLabel().isNotEmpty())
                    parameter->getLabel().copyToUTF8 (paramDef.unit, unitLength);

                parameterDescriptions.add (parameter->getName (15));
                paramDef.description = parameterDescriptions[i].toRawUTF8();

                paramDef.defaultVal = parameter->getDefaultValue();
                paramDef.min = 0.0f;
                paramDef.max = 1.0f;
                paramDef.displayScale = 1.0f;
                paramDef.displayExponent = 1.0f;
            }
        }

        definition.numParameters = static_cast<uint32> (numParams);
        definition.parameterDefintions = parametersPtr.get();
    }

    void setParameter (int index, float value)       { juceParameters.getParamForIndex (index)->setValueNotifyingHost (value); }
    float getParameter (int index) const noexcept    { return juceParameters.getParamForIndex (index)->getValue(); }

    String getParameterString (int index) const noexcept
    {
        auto* param = juceParameters.getParamForIndex (index);
        return param->getText (param->getValue(), 16);
    }

    int getNumInputChannels() const noexcept         { return pluginInstance->getTotalNumInputChannels(); }
    int getNumOutputChannels() const noexcept        { return pluginInstance->getTotalNumOutputChannels(); }

    bool hasEditor() const noexcept                  { return pluginInstance->hasEditor(); }

    UnityPeer& getEditorPeer() const
    {
        auto* peer = dynamic_cast<UnityPeer*> (pluginInstanceEditor->getPeer());

        jassert (peer != nullptr);
        return *peer;
    }

private:
    //==============================================================================
    void processBuffers (float* inBuffer, float* outBuffer, int bufferSize, int numInChannels, int numOutChannels, bool isBypassed)
    {
        int ch;
        for (ch = 0; ch < numInChannels; ++ch)
        {
            using DstSampleType = AudioData::Pointer<AudioData::Float32, AudioData::NativeEndian, AudioData::NonInterleaved, AudioData::NonConst>;
            using SrcSampleType = AudioData::Pointer<AudioData::Float32, AudioData::NativeEndian, AudioData::Interleaved,    AudioData::Const>;

            DstSampleType dstData (scratchBuffer.getWritePointer (ch));
            SrcSampleType srcData (inBuffer + ch, numInChannels);
            dstData.convertSamples (srcData, bufferSize);
        }

        for (; ch < numOutChannels; ++ch)
            scratchBuffer.clear (ch, 0, bufferSize);

        {
            const ScopedLock sl (pluginInstance->getCallbackLock());

            if (pluginInstance->isSuspended())
            {
                scratchBuffer.clear();
            }
            else
            {
                MidiBuffer mb;

                if (isBypassed && pluginInstance->getBypassParameter() == nullptr)
                    pluginInstance->processBlockBypassed (scratchBuffer, mb);
                else
                    pluginInstance->processBlock (scratchBuffer, mb);
            }
        }

        for (ch = 0; ch < numOutChannels; ++ch)
        {
            using DstSampleType = AudioData::Pointer<AudioData::Float32, AudioData::NativeEndian, AudioData::Interleaved,    AudioData::NonConst>;
            using SrcSampleType = AudioData::Pointer<AudioData::Float32, AudioData::NativeEndian, AudioData::NonInterleaved, AudioData::Const>;

            DstSampleType dstData (outBuffer + ch, numOutChannels);
            SrcSampleType srcData (scratchBuffer.getReadPointer (ch));
            dstData.convertSamples (srcData, bufferSize);
        }
    }

    //==============================================================================
    std::unique_ptr<AudioProcessor> pluginInstance;
    std::unique_ptr<AudioProcessorEditor> pluginInstanceEditor;

    int samplesPerBlock = 1024;
    StringArray parameterDescriptions;

    AudioBuffer<float> scratchBuffer;

    LegacyAudioParametersWrapper juceParameters;

    //==============================================================================
    JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (AudioProcessorUnityWrapper)
};

//==============================================================================
static HashMap<int, AudioProcessorUnityWrapper*>& getWrapperMap()
{
    static HashMap<int, AudioProcessorUnityWrapper*> wrapperMap;
    return wrapperMap;
}

static void onWrapperCreation (AudioProcessorUnityWrapper* wrapperToAdd)
{
    getWrapperMap().set (std::abs (Random::getSystemRandom().nextInt (65536)), wrapperToAdd);
}

static void onWrapperDeletion (AudioProcessorUnityWrapper* wrapperToRemove)
{
    getWrapperMap().removeValue (wrapperToRemove);
}

//==============================================================================
static UnityAudioEffectDefinition getEffectDefinition()
{
    const auto wrapper = std::make_unique<AudioProcessorUnityWrapper> (true);
    const String originalName { JucePlugin_Name };
    const auto name = (! originalName.startsWithIgnoreCase ("audioplugin") ? "audioplugin_" : "") + originalName;

    UnityAudioEffectDefinition result{};
    name.copyToUTF8 (result.name, (size_t) numElementsInArray (result.name));

    result.structSize = sizeof (UnityAudioEffectDefinition);
    result.parameterStructSize = sizeof (UnityAudioParameterDefinition);

    result.apiVersion = UNITY_AUDIO_PLUGIN_API_VERSION;
    result.pluginVersion = JucePlugin_VersionCode;

    // effects must set this to 0, generators > 0
    result.channels = (wrapper->getNumInputChannels() != 0 ? 0
                                                           : static_cast<uint32> (wrapper->getNumOutputChannels()));

    wrapper->declareParameters (result);

    result.create = [] (UnityAudioEffectState* state)
    {
        auto* pluginInstance = new AudioProcessorUnityWrapper (false);
        pluginInstance->create (state);

        state->effectData = pluginInstance;

        onWrapperCreation (pluginInstance);

        return 0;
    };

    result.release = [] (UnityAudioEffectState* state)
    {
        auto* pluginInstance = state->getEffectData<AudioProcessorUnityWrapper>();
        pluginInstance->release();

        onWrapperDeletion (pluginInstance);
        delete pluginInstance;

        if (getWrapperMap().size() == 0)
            shutdownJuce_GUI();

        return 0;
    };

    result.reset = [] (UnityAudioEffectState* state)
    {
        auto* pluginInstance = state->getEffectData<AudioProcessorUnityWrapper>();
        pluginInstance->reset();

        return 0;
    };

    result.setPosition = [] (UnityAudioEffectState* state, unsigned int pos)
    {
        ignoreUnused (state, pos);
        return 0;
    };

    result.process = [] (UnityAudioEffectState* state,
                         float* inBuffer,
                         float* outBuffer,
                         unsigned int bufferSize,
                         int numInChannels,
                         int numOutChannels)
    {
        auto* pluginInstance = state->getEffectData<AudioProcessorUnityWrapper>();

        if (pluginInstance != nullptr)
        {
            auto isPlaying = ((state->flags & stateIsPlaying) != 0);
            auto isMuted   = ((state->flags & stateIsMuted)   != 0);
            auto isPaused  = ((state->flags & stateIsPaused)  != 0);

            const auto bypassed = ! isPlaying || (isMuted || isPaused);
            pluginInstance->process (inBuffer, outBuffer, static_cast<int> (bufferSize), numInChannels, numOutChannels, bypassed);
        }
        else
        {
            FloatVectorOperations::clear (outBuffer, static_cast<int> (bufferSize) * numOutChannels);
        }

        return 0;
    };

    result.setFloatParameter = [] (UnityAudioEffectState* state, int index, float value)
    {
        auto* pluginInstance = state->getEffectData<AudioProcessorUnityWrapper>();
        pluginInstance->setParameter (index, value);

        return 0;
    };

    result.getFloatParameter = [] (UnityAudioEffectState* state, int index, float* value, char* valueStr)
    {
        auto* pluginInstance = state->getEffectData<AudioProcessorUnityWrapper>();
        *value = pluginInstance->getParameter (index);

        pluginInstance->getParameterString (index).copyToUTF8 (valueStr, 15);

        return 0;
    };

    result.getFloatBuffer = [] (UnityAudioEffectState* state, const char* kind, float* buffer, int numSamples)
    {
        ignoreUnused (numSamples);

        const StringRef kindStr { kind };

        if (kindStr == StringRef ("Editor"))
        {
            auto* pluginInstance = state->getEffectData<AudioProcessorUnityWrapper>();

            buffer[0] = pluginInstance->hasEditor() ? 1.0f : 0.0f;
        }
        else if (kindStr == StringRef ("ID"))
        {
            auto* pluginInstance = state->getEffectData<AudioProcessorUnityWrapper>();

            for (HashMap<int, AudioProcessorUnityWrapper*>::Iterator i (getWrapperMap()); i.next();)
            {
                if (i.getValue() == pluginInstance)
                {
                    buffer[0] = (float) i.getKey();
                    break;
                }
            }

            return 0;
        }
        else if (kindStr == StringRef ("Size"))
        {
            auto* pluginInstance = state->getEffectData<AudioProcessorUnityWrapper>();

            auto& editor = pluginInstance->getEditorPeer().getEditor();

            buffer[0] = (float) editor.getBounds().getWidth();
            buffer[1] = (float) editor.getBounds().getHeight();
            buffer[2] = (float) editor.getConstrainer()->getMinimumWidth();
            buffer[3] = (float) editor.getConstrainer()->getMinimumHeight();
            buffer[4] = (float) editor.getConstrainer()->getMaximumWidth();
            buffer[5] = (float) editor.getConstrainer()->getMaximumHeight();
        }

        return 0;
    };

    return result;
}

} // namespace juce

// From reading the example code, it seems that the triple indirection indicates
// an out-value of an array of pointers. That is, after calling this function, definitionsPtr
// should point to a pre-existing/static array of pointer-to-effect-definition.
UNITY_INTERFACE_EXPORT int UNITY_INTERFACE_API UnityGetAudioEffectDefinitions (UnityAudioEffectDefinition*** definitionsPtr)
{
    if (juce::getWrapperMap().size() == 0)
        juce::initialiseJuce_GUI();

    static std::once_flag flag;
    std::call_once (flag, [] { juce::juce_createUnityPeerFn = juce::createUnityPeer; });

    static auto definition = juce::getEffectDefinition();
    static UnityAudioEffectDefinition* definitions[] { &definition };
    *definitionsPtr = definitions;

    return 1;
}

//==============================================================================
static juce::ModifierKeys unityModifiersToJUCE (UnityEventModifiers mods, bool mouseDown, int mouseButton = -1)
{
    int flags = 0;

    if (mouseDown)
    {
        if (mouseButton == 0)
            flags |= juce::ModifierKeys::leftButtonModifier;
        else if (mouseButton == 1)
            flags |= juce::ModifierKeys::rightButtonModifier;
        else if (mouseButton == 2)
            flags |= juce::ModifierKeys::middleButtonModifier;
    }

    if (mods == 0)
        return flags;

    if ((mods & UnityEventModifiers::shift) != 0)        flags |= juce::ModifierKeys::shiftModifier;
    if ((mods & UnityEventModifiers::control) != 0)      flags |= juce::ModifierKeys::ctrlModifier;
    if ((mods & UnityEventModifiers::alt) != 0)          flags |= juce::ModifierKeys::altModifier;
    if ((mods & UnityEventModifiers::command) != 0)      flags |= juce::ModifierKeys::commandModifier;

    return { flags };
}

//==============================================================================
static juce::AudioProcessorUnityWrapper* getWrapperChecked (int id)
{
    auto* wrapper = juce::getWrapperMap()[id];
    jassert (wrapper != nullptr);

    return wrapper;
}

//==============================================================================
static void UNITY_INTERFACE_API onRenderEvent (int id)
{
    getWrapperChecked (id)->getEditorPeer().triggerAsyncUpdate();
}

UNITY_INTERFACE_EXPORT renderCallback UNITY_INTERFACE_API getRenderCallback()
{
    return onRenderEvent;
}

UNITY_INTERFACE_EXPORT void UNITY_INTERFACE_API unityInitialiseTexture (int id, void* data, int w, int h)
{
    getWrapperChecked (id)->getEditorPeer().setPixelDataHandle (reinterpret_cast<juce::uint8*> (data), w, h);
}

UNITY_INTERFACE_EXPORT void UNITY_INTERFACE_API unityMouseDown (int id, float x, float y, UnityEventModifiers unityMods, int button)
{
    getWrapperChecked (id)->getEditorPeer().forwardMouseEvent ({ x, y }, unityModifiersToJUCE (unityMods, true, button));
}

UNITY_INTERFACE_EXPORT void UNITY_INTERFACE_API unityMouseDrag (int id, float x, float y, UnityEventModifiers unityMods, int button)
{
    getWrapperChecked (id)->getEditorPeer().forwardMouseEvent ({ x, y }, unityModifiersToJUCE (unityMods, true, button));
}

UNITY_INTERFACE_EXPORT void UNITY_INTERFACE_API unityMouseUp (int id, float x, float y, UnityEventModifiers unityMods)
{
    getWrapperChecked (id)->getEditorPeer().forwardMouseEvent ({ x, y }, unityModifiersToJUCE (unityMods, false));
}

UNITY_INTERFACE_EXPORT void UNITY_INTERFACE_API unityKeyEvent (int id, int code, UnityEventModifiers mods, const char* name)
{
    getWrapperChecked (id)->getEditorPeer().forwardKeyPress (code, name, unityModifiersToJUCE (mods, false));
}

UNITY_INTERFACE_EXPORT void UNITY_INTERFACE_API unitySetScreenBounds (int id, float x, float y, float w, float h)
{
    getWrapperChecked (id)->getEditorPeer().getEditor().setBounds ({ (int) x, (int) y, (int) w, (int) h });
}

//==============================================================================
#if JUCE_WINDOWS
 JUCE_BEGIN_IGNORE_WARNINGS_GCC_LIKE ("-Wmissing-prototypes")

 extern "C" BOOL WINAPI DllMain (HINSTANCE instance, DWORD reason, LPVOID)
 {
     if (reason == DLL_PROCESS_ATTACH)
         juce::Process::setCurrentModuleInstanceHandle (instance);

     return true;
 }

 JUCE_END_IGNORE_WARNINGS_GCC_LIKE
#endif

#endif
